Wideband envelope control in polar modulators

1. A wideband envelope modulator, comprising: a direct current (DC)-to-DC switching converter including a pulse-width modulator configured to generate a PWM signal with modulated pulse widths representing a time varying magnitude of an input envelope signal or a PDM signal having a time varying pulse density representing the time varying magnitude of the input envelope signal, a driver stage configured to generate a PWM or differential PDM drive signal, a high-power output switching stage configured to be driven by the PWM or PDM drive signal, and a low-pass filter (LPF) configured to filter a switching voltage produced at an output switching node of the high-power output switching stage; and a linear amplitude modulator (LAM) connected in series with the DC-DC switching converter, the LAM including an opamp having a first input configured to receive the input envelope signal, and a power transistor having a gate or a base coupled to the output of the opamp and a drain-source or a collector-emitter path configured between an output of the DC-DC switching converter and a wideband envelope modulator output that supplies a final dynamic power supply voltage VDD(t).

2. The wideband envelope modulator of claim 1 , wherein the DC-DC switching converter is configured to operate open loop.

3. The wideband envelope modulator of claim 1 , wherein the driver stage comprises: a high-gain differential amplifier configured to amplify an input differential PWM signal or input PDM signal; and a drive interface configured to receive an amplified PWM signal or amplified PDM signal from the high-gain differential amplifier, the driver interface including an alternating current (AC) coupling capacitor configured to remove a DC component from the amplified PWM signal, a depletion mode field-effect transistor (FET), and clamping diodes that clamp the AC-coupled and amplified PWM signal or amplified PDM signal between an input-high drive level V gs,H and an input-low drive level V gs,L appropriate for switching the driver interface depletion mode FET between fully ON and fully OFF states.

4. The wideband envelope modulator of claim 3 , wherein the input differential PWM or PDM signal is DC coupled to the differential input of the high-gain differential amplifier.

5. The wideband envelope modulator of claim 1 , wherein the power transistor comprises a gallium nitride high electron mobility transistor (GaN HEMT) and the opamp comprises a silicon opamp.

6. The wideband envelope modulator of claim 2 , wherein the DC-DC switching converter has a 10% to 90% or wider useful duty cycle range.

7. An apparatus, comprising: a phase modulator configured to modulate a radio frequency (RF) carrier by a phase modulating signal PM(t) and produce a phase-modulated RF carrier; a dynamic power supply (DPS) configured to generate a wideband dynamic power supply (DPS) voltage VDD(t) from an input direct current (DC) voltage VDD and an input envelope signal, said DPS including a DC-to-DC switching converter connected in series with a linear amplitude modulator (LAM), the DC-DC converter including a driver stage configured to generate a PWM drive signal having pulse widths that vary over time according to a time varying magnitude of the input envelope signal or a PDM drive signal having a pulse density that varies over time according to the time varying magnitude of the input envelope signal, a high-power output switching stage configured to be driven by the PWM drive signal or PDM drive signal, and an output energy storage network including a low-pass filter (LPF); and a power amplifier (PA) having an RF input port configured to receive the phase-modulated RF carrier, a power supply port configured to receive the wideband DPS voltage VDD(t) from the DPS, and an RF output that provides a final amplitude- and phase-modulated RF carrier suitable for transmitting over the air to a remote receiver, wherein the driver stage of the DC-DC converter comprises a high-gain differential amplifier configured to amplify an input differential PWM signal or input PDM signal, and a drive interface configured to receive an amplified PWM signal or amplified PDM signal from the high-gain differential amplifier, the driver interface including an alternating current (AC) coupling capacitor configured to remove a DC component from the amplified PWM signal or amplified PDM signal, a depletion mode FET, and clamping diodes that clamp the AC-coupled and amplified PWM or PDM signal between an input-high drive level V gs,H and an input-low drive level V gs,L appropriate for switching the depletion mode FET between fully ON and fully OFF states.

8. The apparatus of claim 7 , wherein the input differential PWM signal or input PDM signal is DC coupled to the differential input of the high-gain differential amplifier.

9. The apparatus of claim 7 , wherein the LAM comprises: an opamp having a first input terminal configured to receive the input envelope signal; and a power transistor having a gate or a base coupled to an output of the opamp, and a drain-source or collector-emitter path configured between an output of the DC-DC switching converter and the power supply port of the PA.

10. The apparatus of claim 9 , wherein the power transistor comprises a gallium nitride high electron mobility transistor (GaN HEMT) and the opamp comprises a silicon opamp.

11. The apparatus of claim 7 , wherein the DC-DC switching converter is configured to operate open loop.

12. The apparatus of claim 7 , wherein the DC-DC switching converter has a 10% to 90% or wider useful duty cycle range.

13. The wideband envelope modulator of claim 1 , wherein the LPF comprises and LPF of order greater than two.

14. The apparatus of claim 7 , wherein the LPF comprises an LPF of order greater than two.